To describe the space debris environment, the ability to model the object population is essential. These models are particularly useful when debris, due to their small diameters that fall below the detection threshold, or due to a spontaneous event, cannot or have not yet been detected by ground-based sensors. The primary focus is set on the segment of the population deemed particularly risky, specifically objects larger than 1 cm. To date, debris from spacecrafts, referred to as "fragments", significantly contribute to the space debris environment in this size regime. A special challenge lies in modeling recent events, as often insufficient information is available about the nature and intensity of the event. Therefore, the crucial variable – the debris distribution, meaning the number of objects in various size categories – often remains unknown. Based on the institute's experience, established models are employed to estimate the impact of current events and quantify their contributions. The results are presented for selected single events in terms of spatial density, orbital lifetime, and the resulting particle flux on the cross-sectional areas of satellites.
Wiedemann et al. (Fri,) studied this question.